液滴冲击颗粒层的形态缩放。

Morphology scaling of drop impact onto a granular layer.

机构信息

Department of Applied Science for Electronics and Materials, Kyushu University, 6-1 Kasugakoen, Kasuga, Fukuoka 816-8580, Japan.

出版信息

Phys Rev Lett. 2010 May 28;104(21):218001. doi: 10.1103/PhysRevLett.104.218001.

DOI:10.1103/PhysRevLett.104.218001

PMID:20867137

Abstract

We investigate the impact of a free-falling water drop onto a granular layer. First, we constructed a phase diagram of crater shapes with two control parameters, impact speed and grain size. A low-speed impact makes a deeper cylindrical crater in a fluffy granular target. After high-speed impacts, we observed a convex bump higher than the initial surface level instead of a crater. The inner ring can be also observed in a medium impact speed regime. Quantitatively, we found a scaling law for a crater radius with a dimensionless number consisting of impact speed and density ratio between the bulk granular layer and water drop. This scaling demonstrates that the water drop deformation is crucial to understanding the crater morphology.

摘要

我们研究了自由下落水滴撞击颗粒层的影响。首先，我们构建了一个由两个控制参数（撞击速度和颗粒大小）组成的坑形状相图。低速撞击会在蓬松的颗粒状目标中形成更深的圆柱形坑。高速撞击后，我们观察到一个高于初始表面的凸形隆起，而不是一个坑。在中等撞击速度下也可以观察到内环。定量地，我们发现了一个坑半径的标度律，其中包含无量纲数，由撞击速度和颗粒层与水滴之间的密度比组成。这个标度律表明，水滴的变形对于理解坑的形态至关重要。

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液滴冲击颗粒层的形态缩放。

Morphology scaling of drop impact onto a granular layer.

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